The strongly coupled quark–gluon plasma created at RHIC

The relativistic heavy-ion collider (RHIC) was built to re-create and study in the laboratory the extremely hot and dense matter that filled our entire universe during its first few microseconds. Its operation since June 2000 has been extremely successful, and the four large RHIC experiments have pr...

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Published in	Journal of physics. A, Mathematical and theoretical Vol. 42; no. 21; pp. 214003 - 214003 (10)
Main Author	Heinz, Ulrich
Format	Journal Article Conference Proceeding
Language	English
Published	Bristol IOP Publishing 29.05.2009 IOP
Subjects	Exact sciences and technology Physics Dense matter Superstring theory Viscosity Perfect fluid Heavy ions Quark-gluon plasma Gluons Energy density Quarks Strong coupling Elliptical flow
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Abstract	The relativistic heavy-ion collider (RHIC) was built to re-create and study in the laboratory the extremely hot and dense matter that filled our entire universe during its first few microseconds. Its operation since June 2000 has been extremely successful, and the four large RHIC experiments have produced an impressive body of data which indeed provide compelling evidence for the formation of thermally equilibrated matter at unprecedented temperatures and energy densities-a 'quark-gluon plasma (QGP)'. A surprise has been the discovery that this plasma behaves like an almost perfect fluid, with extremely low viscosity. Theorists had expected a weakly interacting gas of quarks and gluons, but instead we seem to have created a strongly coupled plasma liquid. The experimental evidence strongly relies on a feature called 'elliptic flow' in off-central collisions, with additional support from other observations. This paper explains how we probe the strongly coupled QGP, describes the ideas and measurements which led to the conclusion that the QGP is an almost perfect liquid, and shows how they tie relativistic heavy-ion physics into other burgeoning fields of modern physics, such as strongly coupled Coulomb plasmas, ultracold systems of trapped atoms and superstring theory.
AbstractList	The relativistic heavy-ion collider (RHIC) was built to re-create and study in the laboratory the extremely hot and dense matter that filled our entire universe during its first few microseconds. Its operation since June 2000 has been extremely successful, and the four large RHIC experiments have produced an impressive body of data which indeed provide compelling evidence for the formation of thermally equilibrated matter at unprecedented temperatures and energy densities-a 'quark-gluon plasma (QGP)'. A surprise has been the discovery that this plasma behaves like an almost perfect fluid, with extremely low viscosity. Theorists had expected a weakly interacting gas of quarks and gluons, but instead we seem to have created a strongly coupled plasma liquid. The experimental evidence strongly relies on a feature called 'elliptic flow' in off-central collisions, with additional support from other observations. This paper explains how we probe the strongly coupled QGP, describes the ideas and measurements which led to the conclusion that the QGP is an almost perfect liquid, and shows how they tie relativistic heavy-ion physics into other burgeoning fields of modern physics, such as strongly coupled Coulomb plasmas, ultracold systems of trapped atoms and superstring theory.
Author	Heinz, Ulrich
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Cites_doi	10.1103/PhysRevC.78.034915 10.1016/j.physletb.2006.03.060 10.1103/PhysRevLett.94.111601 10.1103/PhysRevA.76.053607 10.1140/epjst/e2008-00591-4 10.1103/PhysRevD.78.045013 10.1146/annurev.nucl.56.080805.140556 10.1088/0954-3899/35/10/104126
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Keywords	Dense matter Superstring theory Viscosity Perfect fluid Heavy ions Quark-gluon plasma Gluons Energy density Quarks Strong coupling Elliptical flow
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Title	The strongly coupled quark–gluon plasma created at RHIC
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